RU2681019C1 - Cumulative charge - Google Patents

Abstract

FIELD: blasting operations.SUBSTANCE: invention relates to blasting. Cumulative charge can be used for perforation of oil and gas wells, explosive drilling of holes, destruction of oversized rocks, nailing metal sheets in industry and in construction. Charge includes a body, an initiator, an initiating charge and the main charge of an explosive with a cumulative notch and metal lining. Initiating charge is made in the form of a thin disk of a high blasting and highly sensitive explosive with an initiator in the center, the diameter of which is less than the critical diameter of detonation of the explosive of the main charge. There is a gasket made of a thin inert material between the main and initiating charges. Cumulative recess is made in the form of an open cylindrical cavity with a bottom convex toward the body of the main explosive charge in the form of a spherical segment with a deflection x along the charge axis within x=(0.1÷0.2)d and the height h of the cylindrical part of the notch h=(0.5÷1.0)d, where d is the diameter of the cylindrical part of the recess, the lining is made in the form of a thin-walled glass, which repeats the shape of the cumulative recess, the thickness of the lining is selected within (0.02÷0.10)d, diameter d of the cylindrical part of the recess is chosen the way the condition (D-d)/2>δis fulfilled, where D is the diameter of the checkers of the main explosive charge, δ– critical thickness of the detonation of the explosive of the main charge. Cylindrical part of the lining and the bottom are made either as a single piece, or composite and made of the same material or different.EFFECT: increase in charge efficiency is achieved, primarily when perforating pipes by increasing the entrance diameter of the hole created by the cumulative jet.1 cl, 1 dwg

Description

The invention relates to blasting, in particular to explosive charges of a cumulative type, and can be used as a technical tool, primarily in the oil and gas production complex for perforating oil and gas wells (as part of perforating and explosive equipment, for example, cumulative perforators) , in industry for punching metal sheets, and can also be used during drilling and blasting, mining or during breaking of rock mass, destruction of oversized rocks with energy directed explosion.

The well-known cumulative charge for these works contains an axisymmetric charge of a high-explosive explosive substance (BB) in the form of a cylindrical checker, usually in a shell (casing), containing from the side of one of the ends a conical open cavity lined with a metal layer (most often copper ) / Grigoryan N.G. and other shooting and blasting in wells. M: Nedra, 1972, S. 83 /. The initiation of detonation in the explosive charge is carried out from the opposite (with respect to the cumulative recess) end of the checker, either from a standard blasting device (electric detonator, detonator capsule or explosive cartridge), or from a detonating cord or from a linear detonating charge in a metal shell passing through a garland of suspended on the carrier cable of the cumulative charges.

The disadvantages of such a charge include, first of all, low efficiency due to the asymmetry of the detonation wave front formed in the explosive charge, uneven compression of the cumulative lining, and, as a result, not the optimal mode of formation of the cumulative jet. Another important drawback of such a charge is the insignificant transverse size of the produced hole, which in many cases is associated with “clogging” of the hole with low-speed fragments of the cumulative stream (the so-called pestle) and, accordingly, with a violation of the perforation process.

Known / application EP No. 0134169, class. F42B 1/02, 1985 / cumulative charge for piercing steel sheets, including a housing in which two explosive charges are placed: the main and intermediate, separated by a screen of porous material. They give it such a shape that in the main explosive charge the detonation wave emanating from the intermediate charge always outstrips the shock wave emanating from the screen. Due to the inclusion in the device design of two explosive charges spaced by the screen, the formation of a symmetrical front of the detonation wave and uniform compression of the cumulative lining, which increases the efficiency of the cumulative effect, are ensured. The disadvantage of this device is the large size and weight.

Known / application EP No. 0254800, class. F42B 1/02, 1988 / cumulative charge, containing, like the previous analogue, a housing in which the main explosive charge with a lined recess and an initiating detonator are placed. The cumulative charge also contains an intermediate explosive charge made in the form of a film. An inert lens is mounted between the main and intermediate charges to form an annular initiation zone. The disadvantages of this device are the possibility of unstable detonation transmission or destruction of the main explosive charge without detonation, as well as the uneven distribution of the detonation front along the intermediate explosive charge. Like the previous analogue, this device has unsatisfactory mass-dimensional characteristics.

Partially, these shortcomings are eliminated (by simulating the detonation front in terms of explosive charge) in another known device / patent of the Russian Federation No. 210037, IPC F42B 1/02, 1/036, 1998 / device, which also includes a housing in which the main explosive charge is placed, an inert lens and a cover with an intermediate explosive charge pressed into it made of a plastic explosive, and its width and thickness in the area of contact with the main charge, as well as its thickness on the lens side, are selected from strictly specified ratios. The reliability and effectiveness of such a cumulative charge, compared with the above analogues, increase; mass-dimensional characteristics are partially improved. However, its design remains quite complex and extremely expensive to manufacture.

Other designs of cumulative charges are known, in which the main explosive charge is initiated in a ring in order to form a toroidal front of the detonation wave and uniform compression of the cumulative lining. They use either the aforementioned detonation lenses from an inert material, or screens for deflecting the detonation wave in the form of evacuated chambers / FRG application No. 3408865, cl. F42B 1/02 /. The disadvantages of such devices: bulkiness, large masses (including large masses of explosives), the complexity of the structures and their high cost.

As the closest analogue of the claimed device, i.e. coinciding with the purpose and general essential structural features, it is advisable to adopt the design of the cumulative charge described in the patent of the Russian Federation No. 2104465, IPC F42B 1/02, 1998. The cumulative charge contains an outer shell (housing), initiator, initiating explosive charge and main charge Explosives with cumulative recess and facing; the initiating charge is made in the form of a disk of explosives with the initiator in the center, and the diameter of the initiator is less than the critical diameter of the explosive of the main charge. Between the initiating and the main charges there is a gasket made of an inert material (for example, fabric).

The advantages of this device, (compared with the analogues described above) are:

- simplicity of design;

- increased reliability of the implementation of the ring initiation of the main charge and the exclusion of point initiation in the center (on the axis of the charge);

- reduced dimensions of the cumulative charge and mass of explosives;

- the possibility of using for the main charge such relatively low-power and not deficient blasting explosives, such as TNT;

- increased manufacturability of the device and its not too high cost.

The disadvantage of such a charge, which forms a highly efficient cumulative stream, is the relatively small diameter of the hole punched in the barrier and the associated increased likelihood of clogging it with low-speed stream fragments (mainly a pest), which can reduce the operation of perforating the casing of the well to nothing.

The technical solution according to the invention is aimed at achieving a technical result, which consists in increasing the efficiency of the device, simplifying its design, reducing cost, expanding the scope.

To achieve the specified technical result, the device according to the invention contains, as well as the closest known housing (outer shell), an initiating device (detonator capsule, electric detonator, explosive cartridge, etc.), an initiator initiating an explosive charge and a main axisymmetric explosive charge in the form cylindrical checkers with a lined cumulative recess made in the end part of the main charge from the side opposite to the initiator. In this case, the initiating charge is made in the form of a disk from a thin layer of explosives, more sensitive to the initiating pulse than the explosive of the main charge; the initiator is located in the center of the disk, on the axis of the cumulative charge, and has a diameter smaller than the critical diameter of the explosive of the main charge, and between the initiating and main charges there is a gasket of thin inert material (for example, fabric).

In contrast to the known, closest device in the proposed device, the cumulative recess is made in the form of an open cylindrical cavity with a bottom convex towards the body of the main explosive charge in the form of a spherical segment with a deflection x along the charge axis within:

x = (0,1 ÷ 0,2) d and height h of the cylindrical part of the recess:

h = (0.5 ÷ 1.0) d, where d is the diameter of the cylindrical part of the recess. The thickness of the lining depending on the material (copper, steel, aluminum, tungsten, depleted uranium, etc.) is selected in the range (0.02 ÷ 0.10) d. Moreover, the cylindrical part of the cladding and the bottom can be made either as a single part, or composite, and are made of the same material or different (with different acoustic stiffness - impedances), due to which you can adjust the focal length from the charge to the punctured obstacle and penetration depth of the latter. The diameter d of the cylindrical part of the recess is selected so that the condition (Dd) / 2> δ _cr. where D is the diameter of the checkers of the main explosive charge, δ _cr. - critical detonation thickness of the explosive of the main charge. In other words, the thickness of the annular arch BB of the main charge between the inner diameter of the shell of the cumulative charge and the outer diameter of the lining of the cylindrical part of the recess should be greater than the critical detonation thickness of the BB of the main charge.

Due to the simplicity of the design and the scarcity of domestic materials and components necessary for the production of the proposed device, it has a low cost, high manufacturability, does not require the use of complex and expensive equipment, and the attraction of highly qualified workforce.

From known to the authors of patent information sources, the totality of features similar to those of the claimed device is not known.

The invention is illustrated in the figure (Fig. 1). It shows a schematic diagram of the design of the proposed device.

The axisymmetric main explosive charge 5 in the form of a checker in the body (outer shell) 6 contains a cylindrical cavity 9 open at the end and with a blank bottom convex towards the main explosive charge, a metal lining (solid or composite), consisting of a cylindrical part 8 and bottom 7. To initiate detonation in the main charge 5, the claimed device contains an initiating device 1 (a detonator capsule, an electric detonator, an explosive cartridge, etc.), initiator 2 (a segment of an elastic explosive cord detonating an elongated charge - Ultrasonic small caliber), booster charge 3 in the form of a thin disk vysokobrizantnogo BB and the gasket 4 of inert material (e.g., cloth).

The proposed device is used and operates as follows.

The initiating device 1 excites detonation in the initiator 2, which transfers it to the initiating charge 3. A diverging detonation wave propagates in a radial direction along the thin layer of the explosive initiating charge 3, exciting in the boundary layer of the main explosive charge 5 an oblique shock wave, which, as the pulse grows, initiates the main a circular charge, as a result of which a toroidal detonation wave propagates in the explosive of the main charge 5, forming a front of such a configuration that the plate This bottom 7 of the cumulative lining is accelerated by detonation products in the incident wave, and, the cylindrical part 8 - in the sliding wave. This provides a faster mode of acceleration of the bottom 7 and its leading exit from the cumulative cavity (prior to compression of the cylindrical part 8, which begins the formation of the cumulative jet. The latter, being faster than the plate bottom 7, drives it at a certain distance from the base of the charge, called By varying the materials of the cylindrical part of the cladding and the plate bottom (as mentioned above, they can be made of different materials, with different impedances), the focus value can be changed in one direction or another At the same time, the cumulative charge will be correspondingly long or short focus.

Thus, the cylindrical part 8 of the cladding directly forms a cumulative stream in the form of a second fragment and is used along with the first (an element from the plate bottom 7) to penetrate the barrier. The diameter of the inlet of the hole in the barrier increases significantly compared to the diameter of the hole formed in the barrier by a cumulative charge with a traditional conical cumulative recess used in the known closest to the claimed device. The proposed charge allows you to create holes in the steel barrier with an input diameter of at least the diameter d of the cladding and varying little in the transverse size up to a depth of (1.5 ÷ 2.0) ⋅d.

In addition, due to the lack of a low-speed part of the cumulative jet (pestle) formed from the part of the metal of the conical lining located at the top of the cone, the probability of plugging the hole with the metal of the jet is practically eliminated.

Claims (6)

1. A cumulative charge comprising a housing, an initiator, an initiating charge and a main explosive charge with a cumulative recess and a metal lining, the initiating charge being made in the form of a thin disk of a high-explosive and highly sensitive explosive with a central initiator whose diameter is less than the critical diameter of the explosive detonation substances of the main charge, and between the main and initiating charges there is a gasket of thin inert material, characterized in that the cumulative Single formed as an open cylindrical cavity with a convex side of the main charge explosive body bottom in the form of a spherical segment with a deflection axis x of charge within x = (0,1 ÷ 0,2) d and height h of the cylindrical part of the recess h = (0.5 ÷ 1.0) d, where d is the diameter of the cylindrical part of the recess, the cladding is made in the form of a thin-walled glass repeating the shape of a cumulative recess, the thickness of the cladding is selected in the range of (0.02 ÷ 0.10) d, the diameter d of the cylindrical part of the recess is chosen so that condition (Dd) / 2> δ _cr. where D is the diameter of the checkers of the main explosive charge, δ _cr - the critical thickness of the detonation of the main explosive charge. 2. The cumulative charge according to claim 1, characterized in that the cylindrical part of the lining and the bottom are made either as a single part, or composite and made of the same material or different.

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